RRC ID 83809
著者 Mohammad F, Mai Y, Ho J, Zhang X, Ott S, Stewart JC, Claridge-Chang A.
タイトル Dopamine neurons that inform Drosophila olfactory memory have distinct, acute functions driving attraction and aversion.
ジャーナル PLoS Biol
Abstract The brain must guide immediate responses to beneficial and harmful stimuli while simultaneously writing memories for future reference. While both immediate actions and reinforcement learning are instructed by dopamine, how dopaminergic systems maintain coherence between these 2 reward functions is unknown. Through optogenetic activation experiments, we showed that the dopamine neurons that inform olfactory memory in Drosophila have a distinct, parallel function driving attraction and aversion (valence). Sensory neurons required for olfactory memory were dispensable to dopaminergic valence. A broadly projecting set of dopaminergic cells had valence that was dependent on dopamine, glutamate, and octopamine. Similarly, a more restricted dopaminergic cluster with attractive valence was reliant on dopamine and glutamate; flies avoided opto-inhibition of this narrow subset, indicating the role of this cluster in controlling ongoing behavior. Dopamine valence was distinct from output-neuron opto-valence in locomotor pattern, strength, and polarity. Overall, our data suggest that dopamine's acute effect on valence provides a mechanism by which a dopaminergic system can coherently write memories to influence future responses while guiding immediate attraction and aversion.
巻・号 22(11)
ページ e3002843
公開日 2024-11-1
DOI 10.1371/journal.pbio.3002843
PII PBIOLOGY-D-23-03462
PMID 39556592
PMC PMC11611264
MeSH Animals Avoidance Learning / physiology Behavior, Animal / physiology Dopamine* / metabolism Dopaminergic Neurons* / metabolism Dopaminergic Neurons* / physiology Drosophila / physiology Drosophila melanogaster / physiology Glutamic Acid / metabolism Memory* / physiology Octopamine / metabolism Optogenetics Reward Smell* / physiology
IF 7.076
リソース情報
ショウジョウバエ DGRC#113659